摘要
Red mud was firstly used as a raw material in sintering field road cement. Then, the radioactive element distribution characteristics of red mud based field road cement(RFC) before and after hydration were comparatively investigated. The experimental results indicated that the specific activity of ^(226)Ra and ^(232)Th increased after sintering process from raw material to clinker, as a result of concentrating effect on ^(226)Ra and ^(232)Th during sintering process, but the specific activity of ^(40)K decreased after sintering process as a result of volatilization effect. Radionuclide ^(226)Ra mainly distributed in RFC silicate phases(C_xS), ^(232)Th distributed more in RFC interstitial phases than RFC silicate phases(C_xS), ^(40)K mainly distributed in RFC interstitial phases. With increasing hydration ages of RFC pastes, the specific activity of ^(226)Ra kept increasing, ^(232)Th remained consistency all the same and ^(40)K declined. The radioactivity of RFC was in the recommended safe limit of Chinese National Standards GB6566-2010 during its preparation and application process.
Red mud was firstly used as a raw material in sintering field road cement. Then, the radioactive element distribution characteristics of red mud based field road cement(RFC) before and after hydration were comparatively investigated. The experimental results indicated that the specific activity of ^(226)Ra and ^(232)Th increased after sintering process from raw material to clinker, as a result of concentrating effect on ^(226)Ra and ^(232)Th during sintering process, but the specific activity of ^(40)K decreased after sintering process as a result of volatilization effect. Radionuclide ^(226)Ra mainly distributed in RFC silicate phases(C_xS), ^(232)Th distributed more in RFC interstitial phases than RFC silicate phases(C_xS), ^(40)K mainly distributed in RFC interstitial phases. With increasing hydration ages of RFC pastes, the specific activity of ^(226)Ra kept increasing, ^(232)Th remained consistency all the same and ^(40)K declined. The radioactivity of RFC was in the recommended safe limit of Chinese National Standards GB6566-2010 during its preparation and application process.
基金
Funded by the National Natural Science Foundation of China(No.51172155)
